In this simulation, click on "Ideal" at the bottom. Check "Collision Counter" and leave at 10ps. Pump 50 particles of the Heavy Gas. Let the particles spread out then click play on wall collisions. Record data, then pump in increments of 50. Record data in the table below. Every time you add particles, let them spread out, then click play for wall collisions.
# Particles Temperature (K) Pressure (atm) Wall Collisions
50
100
150
200
Question 1 (1 point)
Saved
How does the number of particles affect the temperature?
Question 1 options:
Increasing the number of particles increases the temperature.
Increasing the number of particles decreases the temperature.
Increasing the number of particles does not change the temperature.
Question 2 (1 point)
How does the number of particles affect the pressure?
Question 2 options:
Increasing the number of particles increases the pressure.
Increasing the number of particles does not change the pressure.
Increasing the number of particles decreases the pressure.
Question 3 (1 point)
How does the number of particles impact the number of wall collisions?
Question 3 options:
Increasing the number of particles decreases the number of wall collisions.
Increasing the number of particles increases the number of wall collisions.
Increasing the number of particles does not change the number of wall collisions.
Question 4 (1 point)
What is the relationship betewen wall collisions and pressure?
Question 4 options:
There is a direct relationship. When wall collisions increase, pressure increases.
There is an inverse relationship. When wall collisions increase, pressure decreases.
There is no relationship. Wall collisions do not affect pressure.